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The Journal of Neurophysiology Vol. 85 No. 4 April 2001, pp. 1777-1781
Copyright ©2001 by the American Physiological Society
RAPID COMMUNICATION
1NeuroMuscular Research Center, Boston University, Boston, Massachusetts 02215; and 2Division of Organization and Work Science, Norwegian University of Science and Technology, N-7491 Trondheim, Norway
Westgaard, R. H. and
C. J. De Luca.
Motor Control of Low-Threshold Motor Units in the Human Trapezius
Muscle. J. Neurophysiol. 85: 1777-1781, 2001. The firing pattern of low-threshold motor units was
examined in the human trapezius and first dorsal interosseous (FDI)
muscles during slowly augmenting, low-amplitude contractions that were intended to mimic contractile activity in postural muscles. The motor
unit activity was detected with a special needle electrode and was
analyzed with the assistance of computer algorithms. The surface
electromyographic (EMG) signal was recorded. Its root-mean-square (RMS)
value was calculated and presented to the subject who used it to
regulate the muscle force level. In the trapezius, there was minimal,
if any, firing rate modulation of early recruited motor units during
slow contractions (
1% EMGmax/s), and later recruited motor units consistently presented higher peak firing rates.
As the force rate of the contraction increased (3%
EMGmax/s), the firing rates of the motor units in
the trapezius approached an orderly hierarchical pattern with the
earliest recruited motor units having the greatest firing rate. In
contrast, and as reported previously, the firing rates of all motor
units in the FDI always presented the previously reported hierarchical
"onion-skin" pattern. We conclude that the low-threshold motor
units in the postural trapezius muscle, that is the motor units that
are most often called on to activate the muscle in postural activities,
have different control features in slow and fast contractions. More detailed analysis revealed that, in the low force-rate contractions of
the trapezius, recruitment of new motor units inhibited the firing rate
of active motor units, providing an explanation for the depressed
firing rate of the low-threshold motor units. We speculate that Renshaw
cell inhibition contributes to the observed deviation of the
low-threshold motor units from the hierarchical onion-skin pattern.
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